**6. Conclusions**

In this research, different studies have been complied altogether. Different researchers have analyzed fluid flow on a long slider without slip, while others were interested only in a circular slider without slip. Wang presented a comparative study of the both sliders and added velocity slip, but did not cover the effects of a magnetic field. As such, one concern of this study was theoretical investigation of a steady three-dimensional flow of a viscous fluid between a porous slider and the ground in the presence of a transverse uniform magnetic field with velocity slip. The effects of different physical parameter values like Reynolds number and magnetic field on the lateral velocity profiles and lift and drag components were presented in graphs and tables in the presence of velocity slip. It is expected that the results of the present study could be useful for the understanding of various technical problems related to porous sliders where magnetic and velocity slip are the main physical parameters. The main findings are as follows:


**Author Contributions:** N.F. and Y.K. conducted whole research such as preparation, creation and/or presentation of the published work by those from the original research group, specifically critical review, commentary or revision – including pre- or post-publication stages. A.A. helped to improve the language of the paper. Drew the schematic diagram of the problem, preparation, creation and/or presentation of the published work, specifically visualization/data presentation. M.K. helped to revise the reviewers' comments.

**Funding:** This work was supported by the International Cultural Exchange School (ICES), Donghua University, West Yan'an Road 1882, Shanghai 200051, China.

**Conflicts of Interest:** The authors declare no conflict of interest.
